2016
DOI: 10.3390/rs8080676
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Thermal Imagery-Derived Surface Inundation Modeling to Assess Flood Risk in a Flood-Pulsed Savannah Watershed in Botswana and Namibia

Abstract: Abstract:The Chobe River Basin (CRB), a sub-basin of the Upper Zambezi Basin shared by Namibia and Botswana, is a complex hydrologic system that lies at the center of the world's largest transfrontier conservation area. Despite its regional importance for livelihoods and biodiversity, its hydrology, controlled by the timing and relative contributions of water from two regional rivers, remains poorly understood. An increase in the magnitude of flooding in this region since 2009 has resulted in significant displ… Show more

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Cited by 14 publications
(9 citation statements)
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“…Under climate change, rainfall variability is expected to increase across Southern Africa in the 21st century, with a spread in the rainfall probability distribution, increasing the frequency of droughts, extreme rainfall events, and floods in the future [ 55 ]. In flood pulse systems, existing hydrological dynamics already create significant variation in the volume of water flow in river systems and the area of floodplain inundation (401 km 2 to 5,779 km 2 from 2000 to 2015 in the Chobe River system [ 56 ]), with consequent impacts on water quality dynamics and waterborne pathogen exposure. Predicted increases in hydrological extremes associated with climate change will further elevate the vulnerability of populations dependent on surface water resources in these landscapes.…”
Section: Discussionmentioning
confidence: 99%
“…Under climate change, rainfall variability is expected to increase across Southern Africa in the 21st century, with a spread in the rainfall probability distribution, increasing the frequency of droughts, extreme rainfall events, and floods in the future [ 55 ]. In flood pulse systems, existing hydrological dynamics already create significant variation in the volume of water flow in river systems and the area of floodplain inundation (401 km 2 to 5,779 km 2 from 2000 to 2015 in the Chobe River system [ 56 ]), with consequent impacts on water quality dynamics and waterborne pathogen exposure. Predicted increases in hydrological extremes associated with climate change will further elevate the vulnerability of populations dependent on surface water resources in these landscapes.…”
Section: Discussionmentioning
confidence: 99%
“…The confluence of the Chobe River and Zambezi at the eastern edge of the Zambezi Region occurs over resistant basalt, resulting in backwater ponding during peak flow conditions [48,49]. The floodplain is dominated by a fine-grained sandy alluvium supporting tall grassland that is seasonally inundated.…”
Section: Zambezi Region Namibiamentioning
confidence: 99%
“…The floodplain is dominated by a fine-grained sandy alluvium supporting tall grassland that is seasonally inundated. The area forms part of the Kavango-Zambezi Transfrontier Conservation Area (KAZA), a globally significant region for biodiversity including a key elephant migration route [49,50]. Flooding in this region is complex, being influenced by a number of different sources including a main flood pulse from the Zambezi River, backing up water into the Chobe system and a secondary flood pulse from the Kwando River via a combination of wetlands, lakes, and channels [50].…”
Section: Zambezi Region Namibiamentioning
confidence: 99%
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